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Course Criteria
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4.00 Credits
Basic principles of inorganic chemistry. Topics include descriptive inorganic chemistry, structure and bonding, transition metal coordination chemistry, reaction mechanisms, solid state chemistry, electron transfer processes and bioinorganic chemistry. Three lectures, no laboratory. Prerequisite: Course 104 or permission of the instructor. M. Zimmer, D. Cullen, S. Ching
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5.00 Credits
Basic principles of inorganic chemistry. Topics include descriptive inorganic chemistry, structure and bonding, transition metal coordination chemistry, reaction mechanisms, solid state chemistry, electron transfer processes and bioinorganic chemistry. The laboratory emphasizes synthetic, structural and spectroscopic properties of inorganic compounds. Five credit hours. Three lectures, three hours laboratory work. Prerequisite: Course 107 or permission of the instructor. Enrollment limited to 12 students per laboratory section. Staff
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3.00 Credits
Fundamentals of analytical chemistry. Introduction to sample preparation, separation techniques, volumetric, electrochemical and spectroscopic methods. Laboratory work combines classical and instrumental methods of analysis. Three hours lecture; four hours laboratory work. Prerequisite: Course 104 or 204. Enrollment limited to 12 students per laboratory section. D. Lewis, M. Ronau, and Staff
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5.00 Credits
Introduction to the chemistry of carbon compounds, emphasizing the structure, reactivity and mechanisms of reactions for the important functional group classes. Macro- and microscale laboratory work includes basic techniques, representative syntheses with instrumental methods of characterization and identification. Five credit hours each semester. Three lectures; three hours laboratory work; one hour recitation. Prerequisite: Course 104 or 204. Course 223 is prerequisite to 224. Enrollment limited to 12 students per laboratory section. B. Branchini, C. Kaczmarek, T. Ovaska, M. Ronau
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5.00 Credits
Five hours per week of laboratory research supervised by a faculty member. Some library research may also be included. A written summary is required. May not be taken concurrently with Courses 391, 392, 491, 492 or 497-498. Two hours of credit. Offered by individual arrangement. Students must submit a brief description of the proposed project for required department approval at registration.
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4.00 Credits
The chemical, physical and biological principles involved in the discovery, design, synthesis and assessment of several representative classes of medicinal agents; case histories of drug design and development. Three lectures, no laboratory. Prerequisite: Courses 223, 224. Course 224 may be taken concurrently. This course is taught by adjunct members of the faculty employed by Pfizer, Inc., and is coordinated by T. Ovaska. Offered in 2008-2009 and in alternate years. Adjunct Staff
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3.00 Credits
Course 303 deals primarily with biomolecules, discussing enzyme kinetics and the structure and function of amino acids, proteins, saccharides, lipids, vitamins and coenzymes. Course 304 covers biochemical energetics, intermediary metabolism, photosynthesis and the transcription of DNA. Laboratory illustrates the properties of biological molecules and introduces classical and modern biochemical techniques. Three lectures, three hours laboratory. Prerequisite: Course 224. Course 303 is prerequisite to Course 304. Enrollment limited to 12 students per laboratory section. D. Cullen, V. Fontneau
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3.00 Credits
Development of chemical thermodynamics and its applications to a variety of chemical systems such as phase and reaction equilibria. Correlation of experimental observations with theoretical models emphasized. Laboratory focus on the acquisition and interpretation of data. Three hours lecture; three hours laboratory work. Prerequisite: Course 224, Mathematics 113 and Physics 108. Physics majors who have completed Chemistry 104 or 204 may substitute a 200-level physics course for Course 224. Enrollment limited to 12 students per laboratory section. Offered first semester 2007-2008 and in alternate years. D. Lewis and Staff
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3.00 Credits
An introduction to quantum mechanics and chemical bonding; atomic and molecular spectroscopy; statistical thermodynamics; the study of chemical reaction dynamics; and the study of macromolecules. Three hours lecture, three hours laboratory. Prerequisite: Course 224, Mathematics 113, Physics 108. Physics majors who have completed Chemistry 104 or 204 may substitute a 200-level Physics course for 224. Enrollment limited to 12 students per laboratory section. Offered first semester 2008-2009 and in alternate years. D. Lewis and Staff
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4.00 Credits
Atmospheric chemistry, tropospheric chemistry and stratospheric ozone will be covered. The course also deals with acid rain, its sources, chemistry and effects; chlorinated organic compounds; lead and mercury poisoning; natural waters; drinking water; and genetic damage. Three lectures, no laboratory. Prerequisite: Courses 223 and 224. Course 224 may be taken concurrently. Enrollment limited to 20 students.Offered second semester 2007-2008 and in alternate years. M. Zimmer
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